Parasitic helminths cause debilitating diseases that affect millions of people in primarily low-resource settings. Efforts to eliminate onchocerciasis and lymphatic filariasis in Central Africa through mass drug administration have been suspended because of ivermectin-associated serious adverse events, including death, in patients infected with the filarial parasite Loa loa. To safely administer ivermectin for onchocerciasis or lymphatic filariasis in regions co-endemic with L. loa, a strategy termed "test and (not) treat" has been proposed whereby those with high levels of L. loa microfilariae (>30,000/ml) that put them at risk for life-threatening serious adverse events are identified and excluded from mass drug administration. To enable this, we developed a mobile phone-based video microscope that automatically quantifies L. loa microfilariae in whole blood loaded directly into a small glass capillary from a fingerprick without the need for conventional sample preparation or staining. This point-of-care device automatically captures and analyzes videos of microfilarial motion in whole blood using motorized sample scanning and onboard motion detection, minimizing input from health care workers and providing a quantification of microfilariae per milliliter of whole blood in under 2 min. To validate performance and usability of the mobile phone microscope, we tested 33 potentially Loa-infected patients in Cameroon and confirmed that automated counts correlated with manual thick smear counts (94% specificity; 100% sensitivity). Use of this technology to exclude patients from ivermectin-based treatment at the point of care in Loa-endemic regions would allow resumption/expansion of mass drug administration programs for onchocerciasis and lymphatic filariasis in Central Africa.
ObjectiveWe sought to evaluate the relationship between onchocerciasis prevalence and that of epilepsy using available data collected at community level.DesignWe conducted a systematic review and meta-regression of available data.Data SourcesElectronic and paper records on subject area ever produced up to February 2008.Review MethodsWe searched for population-based studies reporting on the prevalence of epilepsy in communities for which onchocerciasis prevalence was available or could be estimated. Two authors independently assessed eligibility and study quality and extracted data. The estimation of point prevalence of onchocerciasis was standardized across studies using appropriate correction factors. Variation in epilepsy prevalence was then analyzed as a function of onchocerciasis endemicity using random-effect logistic models.ResultsEight studies from west (Benin and Nigeria), central (Cameroon and Central African Republic) and east Africa (Uganda, Tanzania and Burundi) met the criteria for inclusion and analysis. Ninety-one communities with a total population of 79,270 individuals screened for epilepsy were included in the analysis. The prevalence of epilepsy ranged from 0 to 8.7% whereas that of onchocerciasis ranged from 5.2 to 100%. Variation in epilepsy prevalence was consistent with a logistic function of onchocerciasis prevalence, with epilepsy prevalence being increased, on average, by 0.4% for each 10% increase in onchocerciasis prevalence.ConclusionThese results give further evidence that onchocerciasis is associated with epilepsy and that the disease burden of onchocerciasis might have to be re-estimated by taking into account this relationship.
Background:The most important risk encountered in distributing Mectizan® for the control of onchocerciasis in areas where Loa loa is co-endemic is the development of an encephalopathic syndrome in people with very high levels of L. loa [> 30,000 microfilariae/milliliter blood (mf/ml)] following treatment with Mectizan®. This syndrome, which occurs rarely, is characterized by symptoms such as confusion, lethargy, coma, and urinary incontinence.The reason this syndrome develops is that Mectizan®, in addition to being an effective drug against the microfilariae of Onchocerca volvulus (the causative agent of onchocerciasis), is also effective against L. loa microfilariae, the rapid killing of which has been associated with this encephalopathy. Like all serious illnesses, this encephalopathy requires prompt medical and nursing care to provide supportive treatment and to prevent nosocomial infections. With competent and timely medical care, patients usually recover fully. The pathogenesis of this encephalopathy remains unknown.L. loa is known, or suspected, to be endemic in humid forest areas of Central and East Africa. The precise distribution of L. loa is still being defined and mapped. Methodologies for mapping include parasitologic surveys, rapid assessment of L. loa based on the restricted definition of eye worm passage (RAPLOA), and predicted prevalence based on environmental factors conducive to the breeding of the vector of L. loa, Chrysops spp.Recent epidemiologic studies have shown that in areas where the prevalence of L. loa microfilaremia in adults exceeds 20%, the percentage of adults with L. loa microfilaremia greater than 30,000 mf/ml is about 1%.1 The threshold for increased community risk of L. loa encephalopathy following Mectizan® treatment has been defined as 20% microfilaremia prevalence which corresponds to a 40% prevalence of history of eye worm passage as measured by RAPLOA.
BackgroundTreatment of onchocerciasis using mass ivermectin administration has reduced morbidity and transmission throughout Africa and Central/South America. Mass drug administration is likely to exert selection pressure on parasites, and phenotypic and genetic changes in several Onchocerca volvulus populations from Cameroon and Ghana—exposed to more than a decade of regular ivermectin treatment—have raised concern that sub-optimal responses to ivermectin's anti-fecundity effect are becoming more frequent and may spread.Methodology/Principal findingsPooled next generation sequencing (Pool-seq) was used to characterise genetic diversity within and between 108 adult female worms differing in ivermectin treatment history and response. Genome-wide analyses revealed genetic variation that significantly differentiated good responder (GR) and sub-optimal responder (SOR) parasites. These variants were not randomly distributed but clustered in ~31 quantitative trait loci (QTLs), with little overlap in putative QTL position and gene content between the two countries. Published candidate ivermectin SOR genes were largely absent in these regions; QTLs differentiating GR and SOR worms were enriched for genes in molecular pathways associated with neurotransmission, development, and stress responses. Finally, single worm genotyping demonstrated that geographic isolation and genetic change over time (in the presence of drug exposure) had a significantly greater role in shaping genetic diversity than the evolution of SOR.Conclusions/SignificanceThis study is one of the first genome-wide association analyses in a parasitic nematode, and provides insight into the genomics of ivermectin response and population structure of O. volvulus. We argue that ivermectin response is a polygenically-determined quantitative trait (QT) whereby identical or related molecular pathways but not necessarily individual genes are likely to determine the extent of ivermectin response in different parasite populations. Furthermore, we propose that genetic drift rather than genetic selection of SOR is the underlying driver of population differentiation, which has significant implications for the emergence and potential spread of SOR within and between these parasite populations.
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